5g

Explore the 5G network architecture with key components like RAN aggregation, NanoCore, IP backbone, and global content delivery. Learn how 5G supports ultra-low latency and massive connectivity.

LTE network architecture connects user devices to the internet through RRHs, eNodeBs, and servers, ensuring seamless high-speed connectivity and low latency.

Discover how Virtual Network Functions and 5G RAN protocols enable flexible, scalable, and Open RAN deployments with CU/DU split and control-user separation.

U-plane and C-plane MDT are key techniques in 5G for network data collection. They enable operators to analyze coverage, quality, and performance efficiently.

Logged MDT allows UEs to collect network performance data even in idle mode, helping operators optimize coverage, reduce dropped calls, and improve QoE.

Discover the difference between Immediate MDT and Logged MDT in 5G networks. Learn how these techniques improve mobility, coverage, and performance monitoring.

Learn how 5G RAN measurement tasks are distributed across gNB-CU, gNB-DU, and UEs. Explore MDT, RRC reports, and how un-correlated data enables optimization.

Explore 5G RAN connectivity with gNB-CU and gNB-DU. Learn how E1, F1-C, and F1-U interfaces optimize 5G performance, scalability, and flexibility.

Understand the differences between Logged MDT and Immediate MDT in LTE and 5G networks. Learn how operators use MDT for coverage, performance, and QoE optimization.

Explore how 5G broadcast and unicast integration enables scalable, high-quality content delivery for OTT, digital TV, and immersive media applications.